Itaru Samusawa scite author profile

The influence of external tensile stress on corrosion and trench formation of low alloy steel in a low H 2 S content sour corrosion environment was investigated. These experiments were conducted with steel for pipelines, and electrochemical methods were used. The results showed that external stress increases the amount of corrosion weight loss and trench depth by promoting the anodic dissolution reaction, and stress concentration was proven to be one of the driving forces for trench formation due to localized corrosion. Based on the experimental findings, the mechanism of trenching was discussed from the viewpoint of promotion of the anodic dissolution reaction by dislocations.

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The influence of cyclic load on environmentally assisted cracking of carbon steel in simulated fuel grade ethanol

Samusawa¹,

Shiotani²,

Kami³

2016

Corrosion Science

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Influence of plastic deformation and Cu addition on corrosion of carbon steel in acidic aqueous solution

Samusawa¹,

Nakayama²

2019

Corrosion Science

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Effect of Surface Hardness and Hydrogen Sulfide Partial Pressure on Sulfide Stress Cracking Behavior in Low Alloy Linepipe Steel

Shimamura¹,

Izumi²,

Samusawa³

et al. 2021

Tetsu-to-Hagane

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TMCP (thermo-mechanical controlled process) linepipes have been long used for severe sour environment, but recently sulfide stress cracking (SSC) caused by local hard zones has become a concern. In order to clarify the hardness threshold that leads to SSC, four-point bend (4PB) SSC tests as per NACE TM0316 were conducted under several H 2 S partial pressure conditions. For 1 bar and higher H 2 S partial pressure conditions, the surface hardness threshold (at 0.25 mm from surface) observing 4PB SSC specimens without SSC cracking was approximately correlated to a maximum acceptable hardness level of 250 HV0.1. By suppressing the hard lath bainite (LB) and obtaining the soft granular bainite (GB) microstructure, stable low surface hardness of 250 or less HV0.1 was achieved, resulting in superior SSC-resistant property. On the other hand, it was found that SSC crack propagated when the surface hardness increased with increasing the volume fraction of LB microstructure. In the case of 16 bar H 2 S partial pressure condition, the crack growth rate increased in the sour environment, and hydrogen embrittlement by H 2 S was promoted. However, in the 4PB SSC test at 16 bar, since the shape of localized corrosion is semicircular due to low localized corrosivity, it was considered that the stress concentration and transition to crack were suppressed. This may be the reason why the SSC susceptibility was similar to 1 bar condition, especially in the 4PB SSC test using the samples with lower surface hardness level of 250 or less HV0.1.

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Itaru Samusawa

Influence and role of ethanol minor constituents of fuel grade ethanol on corrosion behavior of carbon steel

Influence of external tensile stress on corrosion and trench formation of low alloy steel in a low H₂S content sour corrosion environment

The influence of cyclic load on environmentally assisted cracking of carbon steel in simulated fuel grade ethanol

Influence of plastic deformation and Cu addition on corrosion of carbon steel in acidic aqueous solution

Effect of Surface Hardness and Hydrogen Sulfide Partial Pressure on Sulfide Stress Cracking Behavior in Low Alloy Linepipe Steel

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Itaru Samusawa

Influence and role of ethanol minor constituents of fuel grade ethanol on corrosion behavior of carbon steel

Influence of external tensile stress on corrosion and trench formation of low alloy steel in a low H2S content sour corrosion environment

The influence of cyclic load on environmentally assisted cracking of carbon steel in simulated fuel grade ethanol

Influence of plastic deformation and Cu addition on corrosion of carbon steel in acidic aqueous solution

Effect of Surface Hardness and Hydrogen Sulfide Partial Pressure on Sulfide Stress Cracking Behavior in Low Alloy Linepipe Steel

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Influence of external tensile stress on corrosion and trench formation of low alloy steel in a low H₂S content sour corrosion environment